Ye, H., Chen, H., Chen, X., & Chung, V. (2024). Adaptively Augmented Consistency Learning: A Semi-supervised Segmentation Framework for Remote Sensing. arXiv preprint arXiv:2411.09344.
This paper introduces Adaptively Augmented Consistency Learning (AACL), a novel semi-supervised learning framework designed to enhance the accuracy of remote sensing image segmentation, particularly in scenarios with limited labeled data. The study aims to address the challenge of effectively leveraging unlabeled data to improve segmentation performance in remote sensing applications.
The AACL framework incorporates two novel modules: Uniform Strength Augmentation (USAug) and Adaptive CutMix (AdaCM). USAug applies strong augmentations with varying orders and types but consistent strength to unlabeled images, enriching the embedded information. AdaCM dynamically applies CutMix, either between two unlabeled images or between a labeled and an unlabeled image, based on the model's confidence, further enhancing learning and mitigating confirmation bias. The framework is evaluated on three mainstream remote sensing datasets: DFC22, iSAID, and Vaihingen. The performance is compared against a supervised baseline and other state-of-the-art semi-supervised segmentation frameworks using metrics like mean Intersection over Union (mIoU).
The study concludes that AACL effectively addresses the challenge of limited labeled data in remote sensing image segmentation by leveraging unlabeled data through innovative augmentation techniques. The proposed framework demonstrates significant performance improvements over existing methods, highlighting its potential for advancing remote sensing applications.
This research significantly contributes to the field of remote sensing image analysis by introducing a novel and effective semi-supervised learning framework. The proposed AACL method addresses the critical bottleneck of limited labeled data, paving the way for more accurate and efficient segmentation in various remote sensing applications, including environmental monitoring, urban planning, and disaster response.
The study acknowledges the computational cost associated with extensive augmentations and the dependency on specific threshold values as limitations. Future research could explore more computationally efficient augmentation strategies and adaptive thresholding mechanisms to further enhance the framework's applicability.
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by Hui Ye, Haod... ที่ arxiv.org 11-15-2024
https://arxiv.org/pdf/2411.09344.pdfสอบถามเพิ่มเติม